Western Siberian Birch Woodland
Woodlands dominated by birch, mainly Betula pendula, extend for some 1500 km over the West Siberian Plain from the Urals to the mountains of Salair, Kusnetsky and Altai. They form a zonal belt between the boreal forests and the steppe formations. Birch woodland is often considered to be a sub-climax stage in the recovery process after forest has been destroyed usually as a result of human activities. In parts of west Siberia these birch woodlands were probably dominated be Pinus sylvestris in the past. However, much birch woodland is now considered to be a natural climax or primary vegetation in parts of Siberia and this seems to be the case in much of southern west Siberia. They can support up to 400 species of vascular plants and can include many taiga species close to their southern limit and steppe species close to their northern limit. The canopy is mostly dominated by Betula pendula, while Rosa acicularis is often a common shrub layer species. Other trees may include Populus tremula, and in permanently wet areas, Betula pubescens replaces B. pendula. At ground level some of the more characteristic herbaceous species include Artemisia macrantha, Calamagrostis epigeios, Cnidium dubium, Galatella biflora, Poa angustifolia, Serratula wolffii and the Siberian endemic or near endemic Geranium bifolium (Geraniaceae) and Heracleum sibiricum (Apiaceae). Mosses and lichens, on the other hand, are very scarce. Other Siberian endemic or near endemic vascular plants associated with these woodlands include Calamagrostis arundinacea (Poaceae), Crepis sibirica (Asteraceae) and Peucedanum morisonii (Apiaceae).
Western Siberian Peat Bog
Western Siberia includes the largest peat bog in the world. Its core area lies between the Ural Mountains and the Yenisey River extending over 1800 km from west to east and 800 km from north to south and containing 40% of all peat deposits on the planet. The excess water causes a lack of oxygen and gives rise to the formation of methane. The gas is created in massive quantities and when it escapes to the surface often kills surrounding vegetation. If the surface peat is drilled the escaping gas is often under such pressure that it can cause fountains of liquid peat. These upwellings appear to be partially responsible for the numerous lakes of black bog water, estimated to exceed 100,000, and these together with the vast area of bog constitutes one huge hydrological system. The peat thickness ranges from 4-7 m and most of it is very low in nutrients (oligotrophic). Of the vegetation, about 60% consists of mixed Sphagnum bog often dominated by Sphagnum fuscum, while 10% is a complex largely dominated by Eriophorum vaginatum, Scheuchzeria palustris and Sphagnum species such as S. angustifolium, S. balticum, S. dusenii, S. fuscum and S. magellanicum. Throughout the bog other vascular plants include Andromeda polifolia, Betula nana, Chamaedaphne calyculata, Drosera longifolia, Leda palustre, Menyanthes trifoliata, Oxycoccus microcarpus, Rubus chamaemorus and Vaccinium uliginosum. In places the local drainage is sufficient to allow small patches of forest to develop which are usually dominated by Pinus sibirica, P. sylvestris or Betula pubescens.
Western Siberian Palsa Mires
These mires comprise frozen mounds or ridges (palsas) up to 8 m high, which alternate with wet hollows. In Western Siberia they are largely confined to the lowland areas between the Ob and Yenisey rivers where the dominant vegetation is either northern taiga or southern forest tundra. The vegetation mainly consists of dwarf shrubs such as Betula michauxii, Ledum decumbens, Vaccinium uliginosum and V. vitis-idaea. The wet hollows are dominated by sedges such as Carex limosa, C. rostrata and C. rotundata, and cotton grasses mainly Eriophorum angustifolium and E. russeolum. Herbs are few in number but may include species such as Menyanthes trifoliate, while some palsas also have a scattering of trees like Betula pubescens, Larix sibirica and Pinus sibirica.
Western Siberian Fen
These are mainly situated in the forest steppe and steppe zones of the Western Siberian lowlands, but they have a complex pattern of variation. They include various eutrophic fens with mosses, sedges and grasses such as Calamagrostis neglecta and Scolochloa festucacea.
Further information required
References
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